Cell Site Content Caching

1. A system for providing digital content to a mobile device from a wireless communications service cell site, comprising: a content gateway configured to predictively receive and forward the digital content from a content server to the cell site over a wireless ancillary channel of a backhaul; a cache unit communicatively coupled to the content gateway and located at the cell site, wherein the cache unit is configured to locally cache the digital content; and the cell site configured to interface the mobile device to the backhaul, wherein the backhaul includes at least the ancillary channel and a primary data channel communicatively coupling the cell site to a data network, wherein the cell site is further configured to provide locally cached digital content that is requested by the mobile device from the cache unit rather than by downloading the requested digital content over the backhaul, wherein the content gateway is configured to predictively receive and forward content based on whether a content request from the mobile device is likely within a predetermined time period; wherein the ancillary channel is a point-to-multipoint channel; and wherein the backhaul includes another ancillary channel that is a logical or virtual channel provided over the primary data channel by employing at least one of quality of service, statistical multiplexing, or dynamic bandwidth allocation techniques.

2. The system of claim 1 , further comprising: a base station controller (BSC) coupled to the cell site and configured to control Global System for Mobile Communications (GSM) functionality of the cell site; a Radio Network Controller (RNC) coupled to the cell site and configured to control Universal Mobile Telecommunications System (UMTS) functionality of the cell site; and a switch coupled to the BSC and to the RNC and configured to switch voice traffic from the cell site and to route data traffic from the cell site to the data network, wherein the cell site comprises: a base station configured to provide GSM radio interfacing between the backhaul and an antenna interface; a Node-B configured to provide UMTS radio interfacing between the backhaul and the antenna interface; a first antenna configured to interface the cell site to the mobile device; a second antenna configured to interface the cell site to the content gateway; and the antenna interface configured to couple RF signals between the base station, the Node-B, the first antenna, and the second antenna.

3. The system of claim 1 , wherein the ancillary channel is provided in an ancillary or supplementary services spectrum of a digital television spectrum.

4. The system of claim 1 , wherein the cell site is configured as a Global System for Mobile Communications (GSM) and Universal Mobile Telecommunications System (UMTS) cell site.

5. The system of claim 1 , wherein the primary channel includes a primary data channel communicatively coupling the cell site to a data network and a primary voice channel coupling the cell site to a telephone network.

6. The system of claim 1 , wherein the ancillary channel is a point-to-multipoint channel provided in a frequency modulated (FM) radio sideband spectrum.

7. The system of claim 1 , wherein the content includes at least one of image files, video files, or sound files.

8. The system of claim 1 , wherein the content gateway is configured to predictively receive and forward content based on analysis of previous content requests.

9. The system of claim 1 , wherein the content gateway is configured to predictively receive and forward content based on operator configurations.

10. The system of claim 1 , wherein the content gateway is configured to predictively receive and forward content based on statistical analysis.

11. The system of claim 1 , wherein the content gateway is configured to predictively receive and forward content based on available space in a cell site cache unit.

12. The system of claim 1 , wherein the content gateway is configured to predictively receive and forward content based on network conditions.

13. The system of claim 1 , wherein the content gateway is configured to predictively receive and forward content based on a size of the content.

14. The system of claim 1 , wherein the content gateway is configured to predictively receive and forward content based on content requests at other cell sites.

15. The system of claim 1 , wherein the backhaul includes another ancillary channel that is a logical or virtual channel provided over the primary channel by employing at least one of quality of service, statistical multiplexing, or dynamic bandwidth allocation techniques.

16. A method for providing content to mobile devices from wireless communications service cell sites, comprising: receiving content requests from the mobile devices; determining whether the content is locally cached at the cell sites; if the content is locally cached at the cell sites, providing the content to the mobile devices from the local caches; and if the content is not cached at the cell sites: requesting the content from a content server; receiving the content from the content server; and providing the received content to the mobile devices, wherein the receiving of the content from the content server includes predictively transferring the content to the cell sites based on whether content requests from the mobile devices are likely within a predetermined time period, wherein the transferring includes transferring the content over a logical or virtual ancillary channel of a backhaul, wherein the ancillary channel includes a point-to-multipoint channel; and, wherein the backhaul includes another ancillary channel that is a logical or virtual channel provided over a primary data channel by employing at least one of quality of service, statistical multiplexing, or dynamic bandwidth allocation techniques.

17. The method of claim 16 , further comprising: determining whether to locally cache the received content at the cell sites based, at least in part, on a likelihood of another request to provide the received content.

18. The method of claim 16 , wherein the transferring further comprises: predictively transferring the content to the cell sites based on at least one of analysis of previous content requests, operator configurations, statistical analysis, available space in each cell sites cache unit, network conditions, size of the content, or content requests at other cell sites.

19. The method of claim 16 , further comprising: transferring the content to the cell sites over a point-to-multipoint wireless broadcast in a digital television spectrum.

20. The method of claim 16 , wherein the transferring further comprises: transferring the content to the cell sites over a point-to-multipoint wireless broadcast channel in a frequency modulated (FM) radio sideband spectrum.

21. A tangible processor-readable medium for executing a method of providing content to a mobile device from a wireless communications service cell site, the method comprising: receiving a content request from the mobile device, wherein the content is not an email, a short message service message, a voice message, a multi-media service message, or a text message; determining whether the content is locally cached at the cell site; if the content is locally cached at the cell site, providing the content to the mobile device from the local cache; and if the content is not cached at the cell site: requesting the content from a content server; receiving the content from the content server; and providing the received content to the mobile device, wherein the receiving of the content from the content server includes predictively transferring the content to the cell site based on whether content requests from mobile devices are likely within a predetermined time period, wherein the transferring includes transferring the content over a logical or virtual ancillary channel of a backhaul, wherein the ancillary channel includes a point-to-multipoint channel; and, wherein the backhaul includes another ancillary channel that is a logical or virtual channel provided over a primary data channel by employing at least one of quality of service, statistical multiplexing, or dynamic bandwidth allocation techniques.

22. The tangible processor-readable medium of claim 21 , wherein the transferring further comprises: predictively transferring the content to the cell site based, at least in part, on at least one of analysis of previous content requests, operator configurations, statistical analysis, available space in a cell site cache unit, network conditions, size of the content, or content requests at other cell sites.

23. The tangible processor-readable medium of claim 21 , wherein the transferring further comprises: transferring the content to the cell site and other cell sites in range over a point-to-multipoint wireless broadcast in a digital television spectrum.